DE3720687A1 - METHOD FOR PRODUCING A COLOR IMAGE - Google Patents

Description

Color testing is generally used in multicolor printing made for the correction of the exposure of Color plates used to enable printing plates. The Test image must be a true image of the desired raster or line art and should be the tonal value of the colors neither increase nor decrease. The visual Color testing should show the following:

• 1. errors in the photomask,
• 2. the best color rendering when printing in the Printing press from the material is expected
• 3. the exact gradation of all shades and whether the shades of gray are neutral,
• 4. The possible need to weaken one the colors and / or instructions for changing the film template before making the printing plates.

The color test for multi-color printing has so far been included Made with the help of color proofs. Everyone has to also necessary for actual multi-color printing Steps to be taken. Such a color inspection process is expensive and time consuming, and therefore you have developed alternative color test methods that the Print quality should be equivalent. Two photographic Color inspection methods are known, namely that so-called surprint process (copying) and the so-called overlay process.  

When checking colors using the overlay method, each time a transparent plastic carrier from each color separation produced a partial color image for itself. For the production One color test set then becomes several carriers with partial color images on top of each other laid a white sheet. The overlay process has the Disadvantage that the superimposed plastic carrier tend to darken the multicolor image so that the impression you get from the color test set made in this way is very different from the prints, that can be achieved with a conventional color proof. The main advantage of this procedure is that it is fast and by registering combining of two or more partial color images for testing corrective measures.

When testing according to the Surprint procedure, a Color proof image made by successively images in different colors from different separations a single receipt sheet. To only an opaque support is used on which successively toner or photosensitive layers in the appropriate colors are applied, as for Example is described in US-A 36 71 236. The Surprint The method has the advantage that the color saturation not affected by plastic supports lying on top of each other becomes. This procedure comes after the actual one Pressure closer and avoids the overlay process own color falsification.  

From US-A 30 60 023, 30 60 024, 30 60 025, 34 81 736 and 36 07 264 are different manufacturing processes copies of an image by photopolymerization and thermal transfer known. With these procedures is applied to a suitable carrier photopolymerizable layer under a transparent template exposed imagewise. The surface of the exposed Layer is then on the image receiving surface of a separate receipt sheet, pressed and heated to a temperature higher than that Transfer temperature of the unexposed layer areas. Then the two carriers are separated from each other separately, the thermally transferable unexposed Image areas remain on the image-receiving material. If these layer parts are not pre-colored, the sticky unexposed image can now be desired toner can be colored.

US-A 37 21 557 describes a method of transmission described by color images, in which between the photosensitive layer and the support a release layer is applied. If the photosensitive Layer is exposed and developed, the more soluble Parts of the layer selectively removed, and it a visible image emerges. The bearer with the picture against a suitable adhesive-coated receiving material pressed and then the image transfer by pulling off the carrier. For each additional Image transfer becomes a fresh layer of adhesive applied to the receiving material.  

EP-A 1 82 031 describes a color test method where part-color images by exposure, Develop and transfer from a temporary to a permanent substrate can be produced. The photosensitive layer of the used Materials contains a binder made from polyvinyl butyral and / or a styrene / maleic acid half-ester copolymer, a diazonium salt polycondensation product and a dye or a pigment. The development the light-sensitive layers are made with wetting agent containing aqueous alkaline solutions. The development of the thermally transferred layers with these Developers are not entirely satisfactory. It can be done by adding organic solvents improve, but the adhesive layer that is also attacked.

In the older, unpublished EP-A 2 16 083 describes a photosensitive mixture which a polyvinyl acetal from 5 to 20% by weight as binder Vinyl acetate, 4-30 wt% vinyl alcohol and 50-91 % By weight contains vinyl acetal units. The vinyl acetal units consist of 75-85% six-ring acetal units, to 3-5 5% from five-ring acetal units and to 10-22% intermolecular acetal units.

The object of the invention was to provide a method for producing propose a single or multi-color image, where a negative color image on a receiving sheet transmitted or generated on this, the development  of the picture with purely aqueous developers in is possible in a short time without layer residues.

According to the invention, a method for manufacturing of a colored image, in which a photosensitive material from a temporary Layer support, a light-sensitive layer, the a polyvinyl acetal, a diazonium salt polycondensation product and a dye or pigment contains, and an adhesive layer on the photosensitive Layer that is a thermoplastic polymer contains, not sticky at room temperature and at a Temperature in the range of 60 to 120 ° C transferable is under pressure and warming up against a developer resistant receiver sheet is laminated, the Adhesion of the photosensitive layer to the temporary Layer carrier is less than the liability of the Adhesive layer on the photosensitive layer and on the receiving sheet, the photosensitive layer Exposed imagewise, the temporary layer carrier is removed and the exposed layer by washing out the unexposed areas with a liquid developer at a temperature at which the adhesive layer is practical is not sticky, being developed either

• a) after lamination, the temporary substrate first subtracts and then the photosensitive Illuminated layer imagewise or  
• b) after lamination first the photosensitive Exposed layer and then the temporary Subtracts or
• c) first exposing the photosensitive layer, then the exposed photosensitive material laminated to the receiving sheet and finally pulls off the temporary layer support.

The method according to the invention is characterized in that that the polyvinyl acetal in the photosensitive layer in an amount of at least 20% is and from units of general types A, B and C. A is present in a proportion of 5 to 20 % By weight and the formula

corresponds to B in a proportion of 4 to 30% by weight is present and the formula

corresponds to and C in a proportion of 50 to 91 % By weight is present and consists of units of the formulas C I, C II and C III

consists in what
R is a hydrogen atom or a lower alkyl group
and wherein the units CI in a proportion of 75 to 85 wt .-%, the units C II in a proportion of 3 to 5 wt .-% and the units C III in a proportion of 10 to 22 wt .-% on the total weight of the units C.

To carry out the method according to the invention used a light-sensitive material that generally made of a temporary layer support with a low adhesion Surface, a colored photosensitive Layer on this surface and an adhesive or There is an adhesive layer on the photosensitive layer. If necessary, other layers can also be used antihalation agents are used, Adhesion promoter or release agent included.

In a preferred embodiment, the temporary carrier is made made of a dimensionally stable and chemically stable film, those when heating, coating and other treatments their shape, expansion and chemical properties does not change significantly. The film in particular consists made of polyethylene terephthalate. She usually has one Thickness of about 25-250 microns, preferably about 50- 130 µm and in particular about 50-75 µm. Suitable Films are, for example, Hostaphan 3000 (manufacturer Hoechst AG), Mylar D (manufacturer DuPont) and Melinex in the qualities 0, 052, 442, 516 and S (manufacturer ICI). The surface of the carrier can be smooth or it can be carried out using various known methods matt structure.

Examples of matt foils are Melinex 377 and 470 from ICI. These materials have the property that the final image without additional Give the desired mattness to work steps. The The final image can shine through the right one  Choice of the matt surface structure of the temporary support to be controlled. This effect is achieved because the top layer of the final image originally was in contact with the matt surface. If between the temporary support and the photosensitive Layer a special release or separation layer is not the case. The use of a Film with a matt surface also has the advantage that later transferred layers are generally better stick on a rough surface than on a smooth surface.

A similar matting of the final image can be done by embossing the glossy image surface with the help a film with a matt surface can be achieved. To the final image and the slide are under pressure and heating laminated together. Generally speaking the film is removed after lamination. This Process has the advantage that the surface quality of the finished test pattern can be varied. In addition, the matting film can be used several times will.

A third method of producing a matting becomes a heat transferable adhesive layer, for example Butvar 90 (polyvinyl butyral; Manufacturer Monsanto), on a film with a rough surface, for example Melinex 329 (manufacturer ICI) applied. The film with a rough surface is covered with the Adhesive layer side under pressure and heating on the  final image laminated and then from the Peeled off adhesive layer. The rough surface of the film causes the final image to become matt. The Process has the advantage that all layers are matt appear and that the additional adhesive layer that Image protects. Other methods of making a matt surface are in US-A 42 94 909 and 43 76 159.

In any case, the temporary support must be moderately adhesive Have surface, d. H. the photosensitive Layer must be able to be separated from it again. To For this purpose, either the carrier surface of clinging little by nature; liability can be through appropriate treatment is reduced, or the Carrier can be provided with a release layer. Such a release layer can have one layer Be based on polyvinyl alcohol.

Generally, the photosensitive layer contains a photosensitizer, a colorant, d. H. one Dye or pigment, a resin as a binder and optionally other ingredients, e.g. B. plasticizers, acidic stabilizers, surfactants, antistatic agents, UV Absorber and solvent residues.

Polymers from units of the types are used as binders A, B and C are used, with A in a proportion from 5 to 20% by weight and the formula

corresponds to B in a proportion of 4 to 30% by weight is present and the formula

corresponds to and C in a proportion of 50 to 91 % By weight is present and consists of units of the formulas C I, C II and C III

where R is a hydrogen atom or a lower one Is alkyl group and wherein the units C I in one Share of 75 to 85 wt .-%, the units C II in a share of 3 to 5 wt .-% and the units C III in a proportion of 10 to 22 wt .-%, based on the Total weight of units C, are present.

These polymers are detailed in EP-A 2 16 083 described.

A diazonium salt polycondensation product is used as the photosensitizer used. The polycondensation product is preferred from 3-methoxy-diphenylamine-4- diazonium salt and 4,4'-bis-methoxymethyl diphenyl ether, precipitated as mesitylene sulfonate, and other polycondensation products, that described in US-A 38 49 392 are. Other suitable photosensitizers are called in US-A 44 36 806. The selected diazonium compounds are preferred in organic solvents soluble.

Colorants suitable according to the invention include various dyes and pigments. In the most pigments with a preferred embodiment average particle size of at most about 1 µm used.

The photosensitive layer can optionally Plasticizer of the phthalate or phosphate type added will. Preferred plasticizers are dibutyl phthalate and  Dimethyl phthalate. Suitable polymeric plasticizers are Acrylic resins such as Carboset 525 (manufacturer B. F. Goodrich).

Development promoting polymers with acid groups like Acrylic or methacrylic acid copolymers or copolymers of maleic anhydride or maleic acid partial esters with styrene can also be added will.

As acidic stabilizers u. a. Phosphorus, lemons, Benzoic, m-nitrobenzoic and p-toluenesulfonic acids as well as mixtures of these acids. phosphoric acid is preferred.

These components can be dissolved in compatible solvents such as butyrolactone, diacetone alcohol, 2- or 3-methoxypropanol, ethanol, 2-methoxyethanol or butanone and applied to the non-stick surface and dried. In a preferred embodiment, the light-sensitive layer has a layer weight between approximately 0.1 and 5.0 g / m ² . The layer weight is in particular between 0.5 and 2.0 g / m ² .

The components are preferably present in the following proportions contained in the photosensitive layer: the photosensitizer of about 5-40% by weight, in particular of about 10-35% by weight, the colorant about 10-40 % By weight, in particular from about 13-34% by weight, of the binder of about 10-80% by weight, especially about 32-75 wt .-%, the plasticizer optionally used  up to about 20% by weight, preferably up to about 15% by weight and in particular from about 12 to 15% by weight, and the acid stabilizer, if used up to about 10% by weight.

The following are typical compositions for the photosensitive layers indicated:

The adhesive layer is practical at normal temperatures not sticky and contains thermoplastic polymer or polymer mixture. Suitable polymers have one Glass transition temperature Tg of 20 to 60 ° C, in particular from 25 to 55 ° C. The thermoplastic polymers should be capable of forming flexible layers be. They are preferably transparent and colorless.

Suitable thermoplastic polymers are e.g. B. polyvinyl acetals, like Butvar B 79, manufacturer Monsanto; Polyvinyl acetates, like Mowilith 20, 25, 30, DM 6 and DM 22, Manufacturer Hoechst AG; Polyacrylates, such as Elvacite 2044, Manufacturer Du Pont; and polyvinyl chloride / polyvinyl acetate Copolymers, such as UCAR VYNC, manufacturer Union Carbides. Novolaks and epoxy resins can also be used will.

The polymers are usually dispersed in water or in an organic solvent, e.g. As butyl acetate or methyl isobutyl ketone, dissolved and applied to the light-sensitive layer. The layer is then dried so that a layer weight of about 5 to 30 g / m ² , preferably of about 10 to 20 g / m ² results. UV absorbers, e.g. B. Uvinul D-50 (manufacturer GAF), polymeric plasticizers, e.g. B. Resoflex R-296 (manufacturer Cambridge Industries) or Carboset 525 (an acrylic resin of acid number 80 with a molecular weight of 260,000, manufacturer BF Goodrich) and antistatic agents, for. B. Gafac and Gafstat (manufacturer GAF) and other resins, e.g. B. Nitrocellulose R 1/2 (manufacturer Hercules) may be included. The adhesive layer should not feel sticky during storage or development of the light-sensitive material. The layer should have a softening point in the range of approximately 60-120 ° C, in particular 60-100 ° C. In a preferred embodiment, polyvinyl acetate is contained in the adhesive layer in a proportion of more than 50% by weight. The plasticizer can be present in the layer in an amount of up to about 30% by weight, the UV absorber up to about 20% by weight and other resins up to about 50% by weight.

The adhesive layer can be, for example, one of the following compositions (% By weight) have:

In practical use, the photosensitive Material with the adhesive layer on a receiver sheet laminated. The receipt sheet should be permanent against any interference from the elected Be a developer. When using aqueous For example, developers want it to be waterproof. For this purpose is plastic or plastic coated Receiving sheets suitable.

Films suitable as receiving materials are polyester films, e.g. B. Melinex 329, 339, 994 and 3020 from ICI. However, other white and non-white can also be used Receiving materials are used. The surface the receiving material preferably has a rough one Structure and / or has been treated as a mediator, and it must be insensitive to the laminating and Development processes.

The lamination can be carried out so that the Receiving sheet with the adhesive layer of the colored Material is brought into contact and then both Materials together under appropriate pressure the nip of a heated pair of laminating rollers be performed. Suitable lamination temperatures are  generally at about 60-120, expediently 60-90 ° C, preferably at 75-85 ° C. After lamination the carrier is peeled off, which is usually easy done by hand. The adhesive layer and the photosensitive Layers remain on the receipt sheet back.

The photosensitive layer is either in front or imagewise after lamination in a known manner exposed. You can e.g. B. with a UV light source exposed through a photomask in the vacuum copier frame will. So that the layers when exposed to each other are in contact, preferably after Laminating and peeling the carrier film exposed. Mercury vapor lamps are compared to metal halide lamps prefers. Filters can also be used to reduce light scattering.

After lamination, peeling off the carrier film and exposure the photosensitive layer is developed, by placing the unexposed areas in a suitable Developers to be solved. It is then dried.

As a developer of planographic printing plates Production of the mixtures according to the invention used are, for. B. aqueous solutions in which contain one or more of the following compounds are:

• a) a sodium, potassium or lithium salt of Monooctyl-, -decyl-, -dodecyl- or -tetradecyl sulfate;
• b) sodium, lithium, potassium or Ammonium metasilicate;
• c) lithium, potassium, sodium or ammonium borate;
• d) an aliphatic dicarboxylic acid with 2 to 6 carbon atoms or a sodium, potassium or ammonium salt such acid;
• e) mono-, di- or trisodium or potassium phosphate.

A further suitable developer are aqueous solutions of benzoic acid or sodium, lithium and potassium benzoates, as well as those substituted by hydroxyl groups Analogs and those described in US-A 44 36 807 Called developer. The adhesive layer is through not significantly attacked the developer. Suitable For example, developers have the following composition:

I.
Water 95.0 sodium decyl sulfate 3.0 disodium phosphate 1.5 sodium metasilicate 0.5 II.
Water 89.264 monosodium phosphate 0.269 trisodium phosphate 2.230 sodium tetradecyl sulfate 8.237

The process can then be repeated, with a another photosensitive material in another Color over the previously made image on the same Receiving sheet is laminated. For complete color rendering to get a desired image normally uses four colored layers. These Color layers include cyan (teal), magenta (Purple), yellow and black.

The invention is illustrated by the following examples explained in which all quantities, if nothing in other words, to understand in units of weight are.

example 1

At 70 ° C in the course of 16 hours, 75 g of Vinol 523 (a vinyl alcohol / vinyl acetate copolymer with a Proportion of vinyl alcohol units from about 75 to 80 % By weight and an average molecular weight of 70,000) in a solution of 225 g of water and 200 g Ethanol dissolved. Then be under strong Stir 10.13 g of hydrochloric acid (37%) and the Temperature set to 60 ° C. 37.66 g propionaldehyde are slowly added to the reaction mixture. At the same time, the slow addition of 250 g takes place  Ethanol. The mixture is then mixed with a sodium carbonate / sodium hydroxide mixture (50:50) adjusted to pH 7.0. The The reaction product is precipitated with water Form of a granulate isolated. Drying follows in the course of which the moisture content of the product is reduced to a maximum of 1%. The yield is 107 g or 96%. The average molecular weight is 90,000.

The product obtained contains 13.6% vinyl acetate groups, 9.8% vinyl alcohol groups and 76.6% vinyl acetal groups. 80% of the vinyl acetal groups are Six-ring acetals, 4% five-ring acetals and 16% intermolecular Acetals.

Four light-sensitive solutions in the colors teal, yellow, purple and black are produced according to the recipes given above. The pigment is added to the solution in the form of a dispersion of the corresponding pigment in a solution of the polyvinyl acetal described above in a mixture of butyrolactone and propylene glycol monomethyl ether (1: 1). The pigment content of the dispersions is 4.7%; the resin content is 5.6%. The dispersions are individually applied to 75 µm thick polyester films (Melinex 516) as temporary supports and dried in such a way that the required optical density is obtained. The layer weights are approximately 0.8 g / m ² for cyan, 0.9 g / m ² for yellow, 0.7 g / m ² for purple and 1.6 g / m ² for black. The adhesive layer solution, in particular according to recipe II given above, is applied to the light-sensitive layer and dried to a layer weight of 12 g / m ² . The yellow material is then laminated at 80 ° C. with the adhesive layer as desired on one of the two sides of a 180 μm thick polyester receiver sheet (Melinex 3020). The temporary support (Melinex 516) is peeled off after lamination, the adhesive layer and the light-sensitive layer remaining on the receiving sheet. The yellow photosensitive layer is then exposed under the pull-out for the yellow color. The receiver sheet with the exposed yellow layer is immersed in developer II mentioned above at 27 ° C. for 15 seconds and lightly rubbed on the light-sensitive side. The unexposed yellow areas are removed during development, the exposed areas remain.

The developer does not attack the adhesive layer. After this treatment, the illustrated Material rinsed and dried. The purple one Material is then printed on the illustrated as described above yellow side of the receipt sheet laminated and the temporary support is removed. Then the purple layer through the appropriate color separation exposed and processed as the yellow layer. Blue-green followed in the same way on purple Black, so you finally get a four-color image,  which is an exact reproduction of the original, from which the color separations were made.

Example 2

The pigment can also be used as a photosensitive solution Dispersion in a solution of another binder than the polyvinyl acetal indicated in Example 1 in a suitable solvent can be added. In the The following recipe contains the pigments as, for example Dispersion in a solution of Scripset 540 in methyl ethyl ketone in front.

Ethylene glycol monomethyl ether 48.65 Methyl ethyl ketone 34.85 Butyrolactone 10.46 Scripset 540 2.71 Polyvinyl acetal from Example 1 1.04 Diazonium compound as in Example 1 1.21 Phthalocyanine blue pigment 1.01 Quinacridone magenta pigment 0.07

The material is coated and processed as in example 1.

Claims (12)

1. A method of producing a color image in which a photosensitive material made of a temporary support, a photosensitive layer containing a polyvinyl acetal, a diazonium salt polycondensation product and a dye or a pigment, and an adhesive layer on the photosensitive layer containing a thermoplastic Polymer contains, is not sticky at room temperature and is transferable at a temperature in the range of 60 to 120 ° C, is laminated under pressure and heating on a developer-resistant receiver sheet, the adhesion of the light-sensitive layer to the temporary support being less than the adhesion the adhesive layer on the photosensitive layer and on the receiver sheet, the photosensitive layer exposed imagewise, the temporary support removed and the exposed layer by washing out the unexposed areas with a liquid developer at a temperature at which the adhesive layer pra is not sticky, being developed, either

• a) after lamination, first removes the temporary support and then exposes the photosensitive layer imagewise or
• b) after lamination, the light-sensitive layer is first exposed and then the temporary substrate is removed or
• c) first exposing the photosensitive layer, then laminating the exposed photosensitive material onto the receiver sheet and finally peeling off the temporary support,

characterized in that the polyvinyl acetal is contained in the light-sensitive layer in an amount of at least 20% and consists of units of general types A, B and C, A being present in an amount of 5 to 20% by weight and the formula corresponds to, B is present in a proportion of 4 to 30 wt .-% and the formula corresponds and C is present in a proportion of 50 to 91% by weight and consists of units of the formulas CI, C II and C III consists in what
R is a hydrogen atom or a lower alkyl group
and wherein the units CI in a proportion of 75 to 85 wt .-%, the units C II in a proportion of 3 to 5 wt .-% and the units C III in a proportion of 10 to 22 wt .-% on the total weight of the units C. 2. The method according to claim 1, characterized in that that at least the specified process steps once with a light-sensitive material repeated that a dye or pigment in contains a different color, the second photosensitive material developed on the first colored image is laminated. 3. The method according to claim 1, characterized in that the temporary layer support is a transparent one Is polyester film. 4. The method according to claim 1, characterized in that the weight of the light-sensitive layer is 0.1 to 5 g / m ² . 5. The method according to claim 1, characterized in that the photosensitive layer 10 to 40 wt .-% Contains dye or pigment. 6. The method according to claim 1, characterized in that that the photosensitive layer 5 to 40 wt .-% Contains diazonium salt polycondensation product. 7. The method according to claim 1, characterized in that that the photosensitive layer 25 to 80 wt .-% Contains polyvinyl acetal.   8. The method according to claim 1, characterized in that the adhesive layer has a weight of 5 to 30 g / m ² . 9. The method according to claim 1, characterized in that the adhesive layer at least 50 wt .-% thermoplastic Contains polymer. 10. The method according to claim 1, characterized in that the lamination takes place at 60 to 90 ° C. 11. The method according to claim 1, characterized in that the polyvinyl acetal has a molecular weight of 5000 to 100,000.